Dariusz Pojda, PhD Email: Orcid ID: 0000-0002-1397-5267Position: SpecialistResearch groups Computer Vision Systems Group Room: 002 Horizontal TabsPublications Biblio RSS Submitted 1. Pojda, D., M. Żarski, A A. Tomaka, and L. Luchowski, "dpVision: environment for multimodal images", SoftwareX (preprint available at SSRN), 11/2024, Submitted. 2021 2. Pojda, D., A A. Tomaka, L. Luchowski, and M. Tarnawski, "Integration and application of multimodal measurement techniques: relevance of photogrammetry to orthodontics", Sensors, vol. 21, issue 23, 12/2021. 3. Luchowski, L., A A. Tomaka, D. Pojda, K. Skabek, and P. Kowalski, "Multimodal imagery in forensic incident scene documentation", Sensors, vol. 21, issue 4, 02/2021. 2020 4. Tomaka, A A., M. Tarnawski, L. Luchowski, B. Cerkaski, and D. Pojda, "Integracja obrazowania wielomodalnego w zastosowaniu do wspomagania diagnostyki stomatologicznej, planowania i oceny wyników leczenia", Inżynieria Biomedyczna - podstawy i zastosowania; Tom 8 - Obrazowanie Biomedyczne: AOW EXIT, 2020. 5. Luchowski, L., A A. Tomaka, D. Pojda, M. Tarnawski, K. Skabek, and P. Kowalski, "Skanery3D - trójwymiarowe obrazowanie powierzchni", Inżynieria Biomedyczna - podstawy i zastosowania; Tom 8 - Obrazowanie Biomedyczne: AOW EXIT, 2020. 2019 6. Tomaka, A A., L. Luchowski, D. Pojda, and M. Tarnawski, "Dynamic Occlusion Surface Estimation from 4D Multimodal Data", Information Technology in Biomedicine. ITIB 2019. Advances in Intelligent Systems and Computing, vol. vol 1011, Cham, Springer International Publishing, 2019. 7. Pojda, D., A A. Tomaka, L. Luchowski, K. Skabek, and M. Tarnawski, "Applying computational geometry to designing an occlusal splint", Computational Modeling of Objects Presented in Images. Fundamentals, Methods, and Applications. CompIMAGE 2018. Lecture Notes in Computer Science, vol. vol 10986, Cham, Springer International Publishing, 05/2019. 8. Tomaka, A A., L. Luchowski, D. Pojda, K. Skabek, and M. Tarnawski, "Applying computational geometry to designing an occlusal splint", Computer Methods in Biomechanics and Biomedical Engineering: Imaging & Visualization (TCIV), 10/2019. 9. Tomaka, A A., L. Luchowski, D. Pojda, M. Tarnawski, and K. Domino, "The dynamics of the stomatognathic system from 4D multimodal data", In A.Gadomski (ed.): Multiscale Locomotion: Its Active-Matter Addressing Physical Principles, Bydgoszcz, UTP University of Science & Technology, 2019. 2018 10. Tomaka, A A., D. Pojda, L. Luchowski, and M. Tarnawski, "Methods of Tooth Equator Estimation", Computer and Information Sciences, Cham, Springer International Publishing, 2018. 2016 11. Skabek, K., D. Pojda, and R. Winiarczyk, "Progressive reduction of meshes with arbitrary selected points", Man-Machine Interactions 4: Springer International Publishing Switzerland, pp. 525–533, 2016. 12. Tomaka, A A., M. Tarnawski, and D. Pojda, "Multimodal Image Registration for Mandible Motion Tracking", Information Technologies in Medicine: 5th International Conference, ITIB 2016 Kamień Śląski, Poland, June 20 - 22, 2016 Proceedings, Volume 1, Cham, Springer International Publishing, pp. 179–191, 2016. 2014 13. Pojda, D., and P. Kowalski, "Assumptions for a software tool to support the diagnosis of the stomatognathic system: data gathering, visualizing compund models and their motion", Novel Methodology of Both diagnosis and Therapy of Bruxism: International Centre of Biocybernetics Polish Academy of Sciences, pp. 51–56, 3, 2014. 14. Kowalski, P., and D. Pojda, "Visualization of heterogenic images of 3D scene", Man-Machine Interacions 3: Silesian University of Technology, Gliwice, Institute of Theoretical and Applied Informatics, Polish Academy of Science, Gliwice, pp. 291–297, 2014. 2011 15. Skabek, K., and D. Pojda, "Optimization of Mesh Representation for Progressive Transmission", Theoretical and Applied Informatics, vol. 23, no. 3-4, pp. 263–275, 2011. 2010 16. Pojda, D., "Calculating the position of the observer in 3D using 2D images for the interactive presentation of virtual objects", Theoretical and Applied Informatics, vol. 22, no. 3, pp. 177–186, 2010. 2008 17. Pojda, D., "System of computer aiding diagnostic of Squint with applying analysis of the signal of the move of the eye", Theoretical and Applied Informatics, vol. 20, no. 1, pp. 3–14, 2008. 2006 18. Pojda, D., and J. Ober, "Model of the oculomotoric system for diagnosis of Squint", Proceedings of the XI International Conference Mecical Informatics & Technology MIT 2006, pp. 193–198, 9, 2006. 2004 19. Pojda, D., and J. Ober, "Model of the oculomotoric system for diagnosis of Squint", International Workshop on Biometric Technologies: Special Forum on Modeling and Simulation, 2004. 2003 20. Pojda, D., and J. Ober, "Multilayer model of the oculomothoric system for computer based diagnosis of squint", VIII International Conference Medical Informatics & Technologies - MIT'2003, 2003. 2002 21. Augustyn, A., P. Kowalski, L. Luchowski, D. Pojda, and K. Skabek, "System for toolmark analysis in forensic laboratory", Archiwum Informatyki Teoretycznej i Stosowanej, vol. 14, no. 1, pp. 3–16, 2002. 2000 22. Pojda, D., "Zastosowanie systemu OBER2 w diagnostyce zeza", Journal of Medical Informatics and Technologies vol 5, 2000. 23. Augustyn, A., P. Kowalski, L. Luchowski, D. Pojda, and K. Skabek, "Computer-assisted analysis of striated toolmarks and impressions", Second European Academy of Forensic Science Meeting, 2000. 1999 24. Pojda, D., and P. Kowalski, "Programowe platformy dla zagadnień wizji komputerowej", Zeszyty Naukowe Politechniki Śląskiej, Seria: Informatyka, vol. 37, no. 1421, pp. 57–81, 1999. 25. Pojda, D., Segmentacja i pasowanie obrazów 2D dla potrzeb aktywnego stereowidzenia, pp. 81–84, 1999. Pages12następna ›ostatnia » Projectsiitis employee projects: (POIR.04.02.00-00-D014/20-00, 2021 - 2023) (POIR.01.02.00-00-0307/16, 2017 - 2020) 3. Development of system solutions supporting the analysis of crime and accident scenes on the basis of the data acquired by laser scanning and satellite measurement techniques (DOB-BIO6/18/102/, 2014 - 2017) 4. Development of a new research methodology concerning the diagnosis and treatment of bruxism (2012/07/B/ST6/01238, 2013 - 2016) 5. Eksperymentalne stanowisko do integracji i prezentacji widoków przestrzennych (N N516 482340, 2011 - 2013) 6. Aktywne tworzenie modelu przestrzeni przy wykorzystaniu skanera przestrzennego i autonomicznego robota (N N516 440738, 2010 - 2012) 7. Future Internet Engineering - 3D Internet, digital cinema, UHD (POIG.01.01.02-00-045, 2010 - 2012) 8. Wizyjne techniki gromadzenia, przetwarzania i udostępniania obiektów przestrznnych o wielomodalnej reprezentacji hierarchicznej dla potrzeb digitalizacji zasobów dziedzic (N N516 1862 33, 2007 - 2009) 9. Computerized, parametric and deformable geometric model of the human head for the purposes of its reconstruction and of the analysis and modeling of its growth (3 T11F 004 27, 2004 - 2006) 10. Multisensory perception, representation and analysis of 3D shapes by computer, taking into account the presence of incomplete and imprecise information (3 T11C 028 27, 2004 - 2006)